Corrosion inhibition of hypochlorite solutions using sugar acids and Ca

ABSTRACT

Corrosion inhibitor compositions and methods of use are disclosed. Sugar acids and calcium corrosion inhibitors combined with hypochlorite sources provide use solutions for effective corrosion inhibition for metal surfaces.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is related to U.S. patent application Ser. No.12/974,468 filed Dec. 21, 2010 now allowed, entitled CorrosionInhibition of Hypochlorite Solutions Using Zn and Ca, and U.S. patentapplication Ser. No. 12/974,560 filed Dec. 21, 2010 now allowed,entitled Corrosion Inhibition of Hypochlorite Solutions UsingPolyacrylate and Ca, filed concurrently herewith. The entire contents ofthese patent applications are hereby expressly incorporated herein byreference including, without limitation, the specification, claims, andabstract, as well as any figures, tables, or drawings thereof.

FIELD OF THE INVENTION

The invention relates to corrosion inhibitor compositions and methods ofusing the same. In particular, sugar acids and calcium compounds areused with hypochlorite sources and have the beneficial effect ofcorrosion inhibition of metal in contact with hypochlorite sources. Thepresent compositions and methods employing the compositions reduceand/or eliminate the corrosive effects of hypochlorite on metalsurfaces.

BACKGROUND OF THE INVENTION

Sodium hypochlorite solutions are commonly used and highly effective asbleaches and sanitizers for cleaning a variety of surfaces. However,sodium hypochlorite solutions are extremely corrosive to many treatedsurfaces, in particular, metal surfaces become highly corroded.Hypochlorite solutions corrode surfaces as a result of its compositionof sodium hypochlorite, sodium chloride and often sodium hydroxide, eachhaving distinct mechanisms of corrosion. Sodium hypochlorite is a strongoxidant causing metal corrosion through a redox attack. Sodium chlorideattacks and penetrates the passivation layer of metals, resulting inpitting of the surface. In addition, sodium hydroxide is corrosive tometals as a result of formation of metal hydroxide. Additionaldescriptions of the mechanisms of corrosion are disclosed in CorrosionBasics, National Association of Corrosion Engineers, 1984.

It is an objective of the claimed invention to develop corrosioninhibitor compositions to simultaneously prevent all corrosivemechanisms of sodium hypochlorite solution on metal surfaces.

A further object of the claimed invention is a corrosion inhibitorcomposition capable of preventing metal corrosion caused by sodiumhypochlorite solutions without adversely impacting the stability of thehypochlorite solution.

A further object of the invention is to provide methods for hypochloritecorrosion inhibition.

BRIEF SUMMARY OF THE INVENTION

Unexpectedly, the present invention provides compositions and methods ofuse that synergistically reduce corrosion of metal surfaces treated withhypochlorite bleach solutions. An advantage of the invention is acorrosion inhibitor composition that simultaneously prevents thecorrosive mechanisms of hypochlorite solutions on treated surfaces. Itis an advantage of the present invention that the claimed methods andcompositions prevent substrate corrosion caused by hypochloritesolutions without adversely impacting the stability of the hypochloritesolution.

Corrosion inhibitor compositions according to the invention may comprisea hypochlorite source and a corrosion inhibitor comprising a sugar acidcompound and a water soluble calcium compound, wherein the pH of saidcomposition is at least about 7. According to the invention, thehypochlorite source is a solution of sodium hypochlorite, sodiumchloride and optionally sodium hydroxide. Preferably the hypochloritesolution is free of carbonate or bicarbonate anions. According to afurther embodiment of the invention, the corrosion inhibitor compositionhas a neutral or alkaline pH.

The corrosion inhibitor according to the invention may be a sugar acidcompound and a water soluble calcium salt. The corrosion inhibitoraccording to the invention may further be a sugar acid and/or itsoxidation product or products and a water soluble calcium salt having achloride or non-halide anion. According to the invention, the ratio ofhypochlorite source to corrosion inhibitor is from about 10:1 to about600:1. According to a further embodiment of the invention, the ratio ofsaid sugar acid to said calcium salt is from about 6:1 to about 1:6.

The corrosion inhibitor according to the invention may be a sugar acidcompound and the water soluble calcium salt may be calcium chloride orcalcium sulfate. According to the invention, the polyacrylate compoundand calcium salts do not contain bromide or iodide anions. According tothe invention, the corrosion inhibiter is free of aluminum and magnesiumions.

The corrosion inhibitors according to the invention are preferably EPAapproved inert material for antimicrobial formulations. In addition, thecorrosion inhibitor according to the invention does not adversely impactthe stability of the hypochlorite source.

According to an additional embodiment of the invention, the corrosioninhibitor compositions may comprise a hypochlorite source comprisingsodium hypochlorite, sodium chloride and sodium hydroxide and about 0.01to about 2 wt-% corrosion inhibitor comprising a sugar acid and a watersoluble calcium salt, wherein the pH of said composition is at leastabout 7, the ratio of said hypochlorite source to corrosion inhibitor isfrom about 50:1 to about 200:1 and the ratio of said sugar acid to saidcalcium salt is from about 6:1 to about 1:6.

The corrosion inhibitor composition according to the invention mayfurther have a ratio of sugar acid to calcium salt from about 4:1 toabout 1:4. In addition, the corrosion inhibitor is preferably an EPAapproved inert material for antimicrobial formulations and does notadversely impact the stability of the hypochlorite source. According toa further embodiment, the combined hypochlorite and corrosion inhibitorcomposition has a pH of at least 9.

A method for inhibiting corrosion of a surface contacted by ahypochlorite source is disclosed according to the invention andcomprises adding a corrosion inhibitor to a hypochlorite source to forma corrosion inhibitor composition comprising a sugar acid and watersoluble calcium salt, and contacting a surface with said corrosioninhibitor composition. The methods according to the inventionsimultaneously control corrosive mechanisms of sodium hypochlorite,sodium chloride, and sodium hydroxide of said hypochlorite source.

The methods for inhibiting corrosion of a surface are suitable for metalsurfaces. According to the methods of the invention, a corrosioninhibitor is added to a hypochlorite source to provide a corrosioninhibiter concentration in the hypochlorite use solution from about 25ppm to about 2000 ppm. According to a preferred embodiment, the methodsaccording to the invention result in a surface loss of at least lessthan about 0.1% of its weight in the presence of said corrosioninhibitor composition. The methods according to the invention mayfurther comprise the formation of a corrosion-inhibiting layer on atreated surface.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The embodiments of this invention are not limited to particularcorrosion inhibitor compositions and methods of using the same, whichcan vary and are understood by skilled artisans. It is further to beunderstood that all terminology used herein is for the purpose ofdescribing particular embodiments only, and is not intended to belimiting in any manner or scope. For example, as used in thisspecification and the appended claims, the singular forms “a,” “an” and“the” can include plural referents unless the content clearly indicatesotherwise. Further, all units, prefixes, and symbols may be denoted inits SI accepted form. Numeric ranges recited within the specificationare inclusive of the numbers defining the range and include each integerwithin the defined range.

Unless defined otherwise, all technical and scientific terms used hereinhave the same meaning as commonly understood by one of ordinary skill inthe art to which embodiments of the invention pertain. Many methods andmaterials similar, modified, or equivalent to those described herein canbe used in the practice of the embodiments of the present inventionwithout undue experimentation, the preferred materials and methods aredescribed herein. In describing and claiming the embodiments of thepresent invention, the following terminology will be used in accordancewith the definitions set out below.

The term “about,” as used herein, refers to variation in the numericalquantity that can occur, for example, through typical measuring andliquid handling procedures used for making concentrates or use solutionsin the real world; through inadvertent error in these procedures;through differences in the manufacture, source, or purity of theingredients used to make the compositions or carry out the methods; andthe like. The term “about” also encompasses amounts that differ due todifferent equilibrium conditions for a composition resulting from aparticular initial mixture. Whether or not modified by the term “about”,the claims include equivalents to the quantities refers to variation inthe numerical quantity that can occur.

The term “hard surface,” as used herein, includes surfaces including,for example, showers, sinks, toilets, bathtubs, countertops, windows,mirrors, transportation vehicles, floors, and the like.

The phrase “health care surface,” as used herein, refers to a surface ofan instrument, a device, a cart, a cage, furniture, a structure, abuilding, or the like that is employed as part of a health careactivity. Examples of health care surfaces include surfaces of medicalor dental instruments, of medical or dental devices, of electronicapparatus employed for monitoring patient health, and of floors, walls,or fixtures of structures in which health care occurs. Health caresurfaces are found in hospital, surgical, infirmity, birthing, mortuary,and clinical diagnosis rooms. These surfaces can be those typified as“hard surfaces” (such as walls, floors, bed-pans, etc.), or fabricsurfaces, e.g., knit, woven, and non-woven surfaces (such as surgicalgarments, draperies, bed linens, bandages, etc.), or patient-careequipment (such as respirators, diagnostic equipment, shunts, bodyscopes, wheel chairs, beds, etc.), or surgical and diagnostic equipment.Health care surfaces include articles and surfaces employed in animalhealth care.

The terms “hypochlorite,” “hypochlorite solution,” “sodium hypochloritesolution” and variations thereof, as used herein, refer to a mixture ofsodium hypochlorite, sodium chloride, and optionally sodium hydroxide.

The term “instrument,” as used herein, refers to the various medical ordental instruments or devices that can benefit from cleaning with astabilized composition according to the present invention. The phrases“medical instrument”, “dental instrument”, “medical device”, “dentaldevice”, “medical equipment”, or “dental equipment” refer toinstruments, devices, tools, appliances, apparatus, and equipment usedin medicine or dentistry. These various instruments, devices andequipment include, but are not limited to: diagnostic instruments,trays, pans, holders, racks, forceps, scissors, shears, saws (e.g. bonesaws and their blades), hemostats, knives, chisels, rongeurs, files,nippers, drills, drill bits, rasps, burrs, spreaders, breakers,elevators, clamps, needle holders, carriers, clips, hooks, gouges,curettes, retractors, straightener, punches, extractors, scoops,keratomes, spatulas, expressors, trocars, dilators, cages, glassware,tubing, catheters, cannulas, plugs, stents, scopes (e.g., endoscopes,stethoscopes, and arthroscopes) and related equipment, and the like, orcombinations thereof.

The term “ware,” as used herein, includes items such as eating andcooking utensils. As used herein, the term “ware washing” refers towashing, cleaning, or rinsing ware.

The term, “water soluble,” as used herein, refers to a compound that canbe dissolved in water at a concentration of more than about 1 wt-%.Alternatively, the terms “sparingly soluble” or “sparingly watersoluble” refer to a compound that can be dissolved in water only to aconcentration of about 0.1 to about 1.0 wt-%. The term “water insoluble”refers to a compound that can be dissolved in water only to aconcentration of less than about 0.1 wt-%.

The term “weight percent,” “wt-%,” “percent by weight,” “% by weight,”and variations thereof, as used herein, refer to the concentration of asubstance as the weight of that substance divided by the total weight ofthe composition and multiplied by 100. It is understood that, as usedhere, “percent,” “%,” and the like are intended to be synonymous with“weight percent,” “wt-%,” etc.

Commercially-available corrosion inhibitors for non-metal surfaces, suchas glass, often work by causing controlled precipitation of calciumsalts and other hard water sources and/or preventing redeposition ofhardness sources, in order to reduce etching and/or corrosion of treatedsurfaces. For example, calcium gluconate is a corrosion and/or etchinhibitor that may be combined with a magnesium, zinc and/or aluminumion source. Further description of such etch and corrosion inhibitionsystems are disclosed in U.S. Pat. Nos. 7,709,434 and 7,759,299 and U.S.patent application Ser. Nos. 12/114,364, 12/114,342 and 12/726,179, thedisclosures of which are herein incorporated in its entirety. Suchcorrosion inhibitor compositions have been found to provide suitableetch protection to glass and soft metal surfaces, such as aluminum,against corrosive attack by alkalinity in warewash detergents. Examplesof additional corrosion, salt deposit and scale-inhibitor systems knownin the art, include for example U.S. Pat. No. 3,965,027 the disclosureof which is herein incorporated in its entirety.

Unlike the present invention, prior corrosion inhibitor systems are notincorporated directly into the highly corrosive hypochlorite bleachformulas and solutions. Accordingly, the compositions according to thepresent invention provide the benefit of anticorrosive effectstraditionally observed when metal surfaces are contacted withhypochlorite solutions at concentrations often as low as about 100 ppm.The corrosion inhibitor compositions according to the invention aresuitable for use in any application where it is desirable to reducesurface corrosion caused by such hypochlorite solutions. Theanticorrosive effects are obtained at a rate of corrosion of a treatedsurfaces that is less than the rate of corrosion for an otherwiseidentical use solution of hypochlorite except for the absence of thecorrosion inhibitor according to the invention.

Although not limiting to the present invention, it is believed that, incertain embodiments, the combined use of a sugar acid and water solublecalcium salt according to the invention, provides a mechanism ofsynergistic corrosion inhibition. The calcium compound forms amicroscopic protective film on the surface of articles exposed to thepresent corrosion inhibitor composition. The protective film can betransparent or not visible to the unaided eye and functions as aprotective layer to slow or prevent the corrosive hypochlorite solutionscomponents, namely sodium hypochlorite, sodium chloride and often sodiumhydroxide, from attacking and corroding the surface of the article viathe different corrosive mechanisms. According to a theory of theinvention, the film may function to allow the corrosive hypochloritesolution to attack and remove portions of the film, rather than attackthe surface of the article. The combined use of the sugar acid providesfurther mechanism of corrosion inhibition that acts in synergy with thecalcium compound.

Corrosion Inhibitor Compositions

According to an embodiment of the invention, a corrosion inhibitorcomposition is disclosed and comprises, consists of and/or consistsessentially of a hypochlorite source and a corrosion inhibitorcomprising both a sugar acid and a calcium compound. The corrosioninhibitor package of a sugar acid and calcium compound exhibitsexcellent corrosion inhibition for metal surfaces in the presences of ahypochlorite source. The corrosion inhibitor package according to theinvention may therefore be added to compositions, wherein hypochloritesources are employed, to inhibit the corrosion of metal surfaces. Thecombination of the sugar acid and calcium compound generate synergisticincreases in corrosion inhibition caused by hypochlorite sources,compared to corrosion inhibition obtained with the use of either a sugaracid or calcium compound alone.

The sugar acid and calcium compound according to the corrosion inhibitorcompositions provide a source of calcium ions. Any water soluble calciumcompound that provides calcium ions may be used according to theinvention. The sources of calcium ions can be provided as elementalmetals, organic salts, inorganic salts, organic oxides, inorganic oxidesor mixtures thereof. The sources of calcium ions can further be providedas an anhydrous compound or as a hydrated component.

According to an embodiment of the invention, any sugar acid may beutilized and/or any oxidation product of a sugar acid. Sugar acidsinclude monosaccharides with an —OH group oxidized to a carboxyl group.Exemplary sugar acids include aldonic acids, ulosonic acids, uronicacids and aldaric acids. As one skilled in the art will ascertain,aldonic acids are those sugar acids where the aldehyde functional groupof an aldose is oxidized. Ulosonic acids are those sugar acids in whicha keto-acid is formed via oxidation of the first hydroxyl of a 2-ketoseis oxidized. Uronic acids are those sugar acids where an aldose's orketose's first hydroxyl group is oxidized. Finally, aldaric acids arethose sugar acids with both ends of an aldose oxidized.

Suitable sugar acids according to the invention include the followingnonlimiting examples, including ascorbic acid, gluconic acid,galaturonic acid, mucic acid, and glucaric acid. Both ascorbic acid andgluconic acid are particularly suitable sugar acids for use in thecorrosion inhibitor package. As one skilled in the art shall ascertain,ascorbic acid may be considered a “vinyl” carboxylic acid with thedouble bond's electrons shared between the hydroxyl and the carbonylmoieties. There are two resonance structures for the deprotonated form,differing in the position of the double bond. Ascorbic acid might alsobe considered an enol. The deprotonated form would then be a stronglybasic enolate with the adjacent double bond stabilizing the deprotonatedform.

According to an embodiment of the invention, the sugar acid and calciumcorrosion inhibitor package is preferably comprised of a sugar acidselected from the group consisting of ascorbic acid, gluconic acid,galaturonic acid, mucic acid, and glucaric acid and a water solublecalcium salt. The sugar acid and water soluble calcium salt aresufficiently water-soluble so that when the composition is combined witha diluent, such as water, the compounds dissolve. In this context,sufficiently water-soluble means that the salts dissolve at a relativelyquick rate in water. In an embodiment of the invention, the solubilityof the water soluble zinc and calcium salts is at least about 0.5 wt-%in water at about 20° C. and atmospheric pressure. In an embodiment ofthe invention, the water soluble calcium and sugar acid remain solublein solution. In a further embodiment, the water soluble calcium andsugar acid remain dispersed in solution.

According to an embodiment of the invention, the calcium salt of thecorrosion inhibitor composition has a chloride or non-halide anion.According to a preferred embodiment, the calcium salt does not containbromide or iodide anions. Although not intending to be limited accordingto a particular theory of the invention, a corrosion inhibitorcomposition with non-halide anions, particularly not containing bromideor iodide anions, avoids conversion of the ions into hypobromite and/orhypoiodite oxidants through the in situ reaction of the bromide andiodide with the hypochlorite. According to a further embodiment of theinvention, the zinc and calcium salts of the corrosion inhibiter arefree of aluminum and magnesium ions.

Suitable water soluble calcium salts according to the invention are noteffective as oxidizing agents or reducing agents. In addition, suitablewater soluble calcium salts do not contain an anion that acts as ableach catalyst. Still further, oxidizing halogens and/or theirhypohalous acids are not desirable for use according to the invention.Calcium salts may include, for example, calcium acetate, calciumbenzoate, calcium chlorate, calcium chloride, calcium dihydrogenphosphate, calcium formate, calcium gluconate, calcium glycerophosphate,calcium lactate, calcium metasilicate, calcium nitrate, calciumpantothenate, calcium phosphate, calcium salicylate, calcium succinate,calcium sulfate, a hydrate thereof, and a mixtures thereof or the like.The salts can be provided as hydrated salts or anhydrous salts.Exceptionally suitable calcium salts for the corrosion inhibitorcomposition include calcium chloride and calcium sulfate.

According to an embodiment of the invention the corrosion inhibitorcompositions comprise low levels of corrosion-inhibiting additives.According to a preferred embodiment the corrosion inhibitor compositionscomprise ingredients on the U.S. Environmental Protection Agency (EPA)Inert Ingredient List for antimicrobial formulations.

According to the invention, a variety of hypochlorite sources may beutilized. The corrosion inhibitor is preferably a bleach hypochloritesolution. The hypochlorite source according to the invention includessodium hypochlorite and sodium chloride. The hypochlorite source mayfurther optionally include sodium hydroxide. A commercially-availablehypochlorite source is XY-12, available from Ecolab, Inc. and provides aconcentrated bleach hypochlorite suitable for use according to theinvention. Preferably the hypochlorite solution is free of carbonate orbicarbonate anions.

The corrosion inhibitor compositions according to the invention have asuitable ratio of a hypochlorite source to corrosion inhibitor fromabout 10:1 to about 600:1. According to the invention, the level ofcorrosion inhibitor in a hypochlorite solution varies with theparticular ratio of sugar acid to calcium utilized for the corrosioninhibitor package. Particularly suitable ratios of hypochlorite sourceto corrosion inhibitor are from about 50:1 to about 200:1, from about40:1 to about 150:1, from about 30:1 to about 100:1, from about 20:1 toabout 50:1, and from about 10:1 to about 1:1.

The corrosion inhibitor composition can include a corrosion inhibitorpackage, comprising a sugar acid and calcium compound, in an amount fromabout 0.01 wt-% to about 50 wt-%, preferably about 0.01 wt-% to about 20wt-%, more preferably from about 0.1 wt-% to about 10 wt-% and mostpreferably from about 0.1 wt-% to about 2 wt-%. The corrosion inhibitorcomposition includes an effective amount of the corrosion inhibitorpackage comprising the sugar acid and calcium compounds in order toprovide a use solution inhibiting corrosion of metal surfaces contactedwith hypochlorite sources. The phrase “effective amount” in reference tothe corrosion inhibitors refers to an amount sufficient to provide a usecorrosion inhibitor composition that inhibits surface corrosion comparedwith a composition that is identical except that it does not contain asufficient amount of the corrosion inhibitor to reduce surface corrosionafter contact with a hypochlorite source. According to a preferredembodiment, the sufficient amount of corrosion inhibitor does notadversely impact the stability of the hypochlorite source.

The corrosion inhibitor composition according to the invention furtherhas a suitable ratio of a sugar acid to calcium compound. According toan embodiment of the invention, a suitable ratio of a sugar acid to acalcium salt for the corrosion inhibitor package is from about 6:1 toabout 1:6. Particularly suitable ratios of said sugar acid to thecalcium salt are from about 4:1 to about 1:4. The ratio of the sugaracid to calcium salt for the corrosion inhibitor package may becontrolled to provide reduced corrosion of treated metal surfacescompared with the use of either component alone. According to theinvention, the combined use of a sugar acid and calcium compound, namelywater soluble calcium and sugar acid, can provide a synergy in thereduction of metal corrosion caused by a hypochlorite source.

The corrosion inhibitor composition generally includes a use solutionthat has a non-acidic pH. The pH suitable for use with the corrosioninhibitor composition may be either neutral or alkaline. As used herein,basic or alkaline pH refers to pH greater than 7, greater than or equalto 8, about 8 to about 9.5, about 8 to about 11, greater than about 9,or about 9 to about 10.5. According to the invention, a preferred usesolution pH to provide a corrosion-inhibited hypochlorite bleach sourceis from about pH 7 to about pH 9, more preferably from about pH 7 toabout pH 8.

Use Compositions

The present corrosion inhibitor composition or a composition containingthe corrosion inhibitors can be provided in the form of a concentrate ora use solution. In general, a concentrate refers to a composition thatis intended to be diluted with water to provide a use solution thatcontacts an object to provide the desired corrosion inhibition accordingto the invention. A use solution may be prepared from the concentrate bydiluting the concentrate with water at a dilution ratio that provides ause solution having desired corrosion inhibition properties. In general,the corrosion inhibitor composition that contacts the articles to beprotected from hypochlorite corrosion can be referred to as a usecomposition.

In an exemplary embodiment, a concentrate composition may be diluted ata weight ratio of diluent to concentrate of at least about 1:1 or about1:1 to about 2000:1.

The use solution of a corrosion inhibitor composition will include atleast about 25 parts per million (ppm) of the corrosion inhibitor toprovide desired corrosion inhibition properties. Larger amounts ofcorrosion inhibitor can be used in the use solution without deleteriouseffects. Embodiments of the use solution of a corrosion inhibitorcomposition according to the invention can include from about 25 ppm toabout 3000 ppm of the corrosion inhibitor, or about 50 ppm to about 2000ppm of the corrosion inhibitor. The amount of corrosion inhibitor iscalculated based upon the combined amount of sugar acid and calciumcompound used according to the invention.

The concentrate may be diluted with water at the location of use toprovide the use solution. When the corrosion inhibitor composition isused in an automatic warewashing or other machine, it is expected thatthe location of use will be inside the automatic machine. For example,when the corrosion inhibitor composition is used in a warewashingmachine, depending on the machine, the hypochlorite source (i.e. bleachor sanitizer) may be provided in a unit dose form or in a multi-useform. In larger warewashing machines, a large quantity of corrosioninhibitor composition may be provided in a compartment that allows forthe release of a single dose amount of the composition for each cycle.Such a compartment may be provided as part of the warewashing machine oras a separate structure connected to the warewashing machine.

Additional Agents for Corrosion Inhibitor Compositions

Corrosion inhibitor compositions made according to the invention mayfurther include additional functional agents or additives that provide abeneficial property. For example, additional agents or additives may beselected from the group consisting of pH adjusters or other neutralizingagents, surfactants, emulsifiers, sequestrants, solubilizers, otherlubricants, buffers, detergents, cleaning agent, rinse aid composition,secondary anti-corrosion agent, preservatives, binders, thickeners orother viscosity modifiers, processing aids, carriers, water-conditioningagents, foam inhibitors or foam generators, threshold agent or system,aesthetic enhancing agent (i.e., dye, odorant, perfume), other agents oradditives suitable for formulation with a corrosion inhibitorcomposition and the like, and mixtures thereof. Additional agents oradditives will vary according to the particular corrosion inhibitorcomposition being manufactured and its intend use as one skilled in theart will appreciate based on the enabling disclosure of the presentinvention.

According to an additional embodiment of the invention, the corrosioninhibitor compositions do not contain any of the additional agents.Alternatively, a corrosion inhibitor composition according to theinvention only contains hypochlorite-compatible additional agents, forexample, surfactants, viscosity modifiers and fragrances. Preferably,the corrosion inhibitor composition does not contain the additionalagents commercially-available in common detergent compositions.

Dispensing of the Corrosion Inhibitor Compositions

The corrosion inhibitor compositions according to the present inventioncan be dispensed in any suitable method generally known by one skilledin the art. For example, spray-type dispenser such as that disclosed inU.S. Pat. Nos. 4,826,661, 4,690,305, 4,687,121, 4,426,362 and in U.S.Pat. Nos. Re 32,763 and 32,818, the disclosures of which areincorporated by reference herein. A spray-type dispenser functions byimpinging a water spray upon an exposed surface of the solid compositionto dissolve a portion of the composition, and then immediately directingthe concentrate solution including the composition out of the dispenserto a storage reservoir or directly to a point of use.

In an embodiment, the present corrosion inhibitor composition can bedispensed by immersing either intermittently or continuously in water.The composition can then dissolve, for example, at a controlled orpredetermined rate. The rate can be effective to maintain aconcentration of dissolved cleaning agent that is effective for useaccording to the methods of the claimed invention.

In an embodiment, the present corrosion inhibitor composition can bedispensed by scraping solid from the solid composition and contactingthe scrapings with water. The scrapings can be added to water to providea concentration of dissolved corrosion inhibitor that is effective foruse according to the methods of the claimed invention.

Methods of Use for Corrosion Inhibitors

The methods for corrosion inhibition according to the invention protectsurfaces in contact with hypochlorite sources from corrosion caused byhypochlorite bleach used for a variety of surfaces and antimicrobialtreatments. Methods for corrosion inhibition according to the inventionmay comprise, consist of and/or consist essentially of contacting asurface with a corrosion inhibitor composition, wherein said corrosioninhibitor composition comprises a hypochlorite source and a sugar acidand calcium compound. The corrosion inhibitor compositions provide aninhibited hypochlorite solution that can be used as a bleach or surfaceantimicrobial agent in a variety of applications. One skilled in the artwill appreciate and know various application methods.

In an embodiment, the methods of the invention relate to a methodemploying the corrosion inhibitor composition. The method can includeproviding the corrosion inhibitor composition to a surface treated witha hypochlorite solution in order to inhibit corrosion caused by thehypochlorite solution. The method can include preparing an aqueous usecomposition of the present corrosion inhibitor composition. The methodmay further include contacting a surface, such as a hard metal surface,in need of corrosion inhibition due to contact with a hypochloritesolution.

A variety of suitable surfaces may be contacted with the corrosioninhibitor composition according to the invention. Particularly suitablesurfaces for treatment with the corrosion inhibitor compositionsaccording to the invention include metallic and metal-containingsurfaces, including steel, rolled steel and stainless steel.

Surfaces may be contacted according to the methods of the presentinvention for use as a hard surface cleaner or sanitizer, including forexample, industrial surfaces, food and beverage surfaces, food serviceand restaurant surfaces, and health care surfaces. According to anembodiment of the invention, it is desirable to use the corrosioninhibitor compositions and the claimed methods of use to inhibit thecorrosion of metal surfaces contacted with hypochlorite used as a hardsurface sanitizer in janitorial and/or housekeeping applications andfood processing equipment and/or plant applications and in laundryapplications. For example, the corrosion of washers, such as tunnelwashers for washing textiles, may be inhibited according to methods ofthe claimed invention.

In addition, surfaces may be contacted according to the methods of thepresent invention for use in low temperature dish and/or warewashsanitizing final rinse, toilet bowl cleaners, and laundry bleaches.According to further embodiments, the corrosion inhibitor compositionsand the claimed methods are used as sanitizers for pools, spas, and hottubs. According to further embodiments of the invention, the methods areused to treat metal surfaces, such as ware, cleaned and/or sanitizedwith corrosive hypochlorite sources.

All publications and patent applications in this specification areindicative of the level of ordinary skill in the art to which thisinvention pertains. All publications and patent applications are hereinincorporated by reference to the same extent as if each individualpublication or patent application was specifically and individuallyindicated by reference.

EXAMPLES

Embodiments of the present invention are further defined in thefollowing non-limiting Examples. It should be understood that theseExamples, while indicating certain embodiments of the invention, aregiven by way of illustration only. From the above discussion and theseExamples, one skilled in the art can ascertain the essentialcharacteristics of this invention, and without departing from the spiritand scope thereof, can make various changes and modifications of theembodiments of the invention to adapt it to various usages andconditions. Thus, various modifications of the embodiments of theinvention, in addition to those shown and described herein, will beapparent to those skilled in the art from the foregoing description.Such modifications are also intended to fall within the scope of theappended claims.

Example 1

A corrosion test applied hypochlorite solutions to 304 stainless steelcoupons for three days at 120° F. The commercially-availableconcentrated hypochlorite bleach product XY-12 (Ecolab, Inc.),containing 12% sodium hypochlorite and a use solution of the bleachproduct diluted to 100 ppm hypochlorite were applied to the stainlesssteel coupons. Both hypochlorite solutions caused heavily discolored(dark brown) coupons. In addition, the stainless steel coupons treatedwith the concentrated bleach/hypochlorite solution showed furthercorrosion signs of pitting and rust.

Example 2

Comparison of corrosive effects of hypochlorite solutions with corrosioninhibitor compositions. The weight loss of the coupons was determined,with higher weight loss corresponding to loss of metal due to corrosion.The commercially-available concentrated bleach product was modified tocontain ascorbic acid. The ascorbic acid was tested for anti-corrosionefficacy alone, in combination with calcium chloride and compared tocalcium chloride alone. Formulations for the various tests are shown inTable 1 below.

TABLE 1 Corrosion Inhibition Test System % Wt Component 1 ppm Component2 ppm Loss Ascorbic acid 1 — — 0.075 Ascorbic acid 5 — — 0.075 Ascorbicacid 50 — — 0.081 Ascorbic acid 200 — — 0.071 Ascorbic acid 1 Cachloride 50 0.061 Ascorbic acid 5 Ca chloride 50 0.050 Ascorbic acid 50Ca chloride 50 0.044 Ascorbic acid 200 Ca chloride 50 0.046 Ca chloride1 — — 0.078 Ca chloride 5 — — 0.073 Ca chloride 50 — — 0.073 Ca chloride200 — — 0.074 — — — — 0.070

The commercially available hypochlorite solution of Example 1 wasdiluted to 100 ppm hypochlorite and further modified according to thecorrosion inhibition test systems described in Table 1. Non-significant,very slight discoloration of the stainless steel coupon at theair/liquid interact was obtained after three days at 120° F. No pittingand/or rusting corrosion was obtained.

The combination of sugar acid (ascorbic acid) and calcium chlorideshowed synergistic reduction in the attack of hypochlorite on stainlesssteel surfaces. Synergy was determined from the data obtained fromdesigned experiments and an analysis specifically focused on findingsynergy. The synergy and rations of ingredients of a corrosion inhibitorpackage that achieve such synergy are described further herein below.The results were unexpected as a result of the use of the ascorbic acidwith the hypochlorite solution showed some accelerated attack ofhypochlorite on the steel surfaces. In addition, the calcium by itselfdid not show any efficacy for corrosion inhibition of hypochloritesolutions.

The corrosion inhibition packages according to the invention providesimultaneous control of all corrosive mechanisms of sodium hypochlorite,sodium chloride, and sodium hydroxide (or any combination of the samethat may be found in a bleach or hypochlorite source). The corrosioninhibition does not result in any inhibition, inactivation or othermodification to the stability of the hypochlorite source, as may bereadily measured by one skilled in the art to which the inventionpertains.

The inventions being thus described, it will be obvious that the samemay be varied in many ways. Such variations are not to be regarded as adeparture from the spirit and scope of the inventions and all suchmodifications are intended to be included within the scope of thefollowing claims.

What is claimed is:
 1. A method for inhibiting corrosion of a surfacecontacted by a hypochlorite source comprising: adding a corrosioninhibitor to a hypochlorite source to form a corrosion inhibitor usesolution, wherein said corrosion inhibitor concentration in said usesolution is from about 25 ppm to about 3000 ppm, and wherein saidcorrosion inhibitor comprises a sugar acid and a non-oxidizing watersoluble calcium salt; wherein said corrosion inhibitor is free ofmagnesium salt and wherein the ratio of said hypochlorite source tocorrosion inhibitor is from about 10:1 to about 600:1; and contacting asurface with said corrosion inhibitor use solution, wherein saidcomposition inhibits the corrosion of said surface in the presence ofsaid hypochlorite source.
 2. The method according to claim 1, whereinsaid corrosion inhibitor simultaneously controls corrosive mechanisms ofsodium hypochlorite, sodium chloride, and sodium hydroxide of saidhypochlorite source, wherein said hypochlorite source is free ofcarbonate and bicarbonate anions, and wherein said corrosion inhibitoris free of bromide, iodide, aluminum and magnesium.
 3. The methodaccording to claim 1, wherein said surface is metal.
 4. The methodaccording to claim 1, wherein said corrosion inhibitor is added to saidhypochlorite source at a concentration from about 25 ppm to about 2000ppm.
 5. The method of claim 1, wherein said surface loses less thanabout 0.1% of its weight in the presence of said corrosion inhibitor usesolution.
 6. The method of claim 1, further comprising forming acorrosion-inhibiting layer on said surface.
 7. The method of claim 1,wherein the pH of said corrosion inhibitor use solution is at leastabout 7.